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Gene-hacking goals are the thing, what shows, how this technology is advancing.

 
Gene-hacking goals are the thing, what shows, how this technology is advancing.

Gene-hacked goats, what is producing cancer drug in their milk have shown that there are no limits in genetic engineering, and one of the most fascinating ideas is to create gene-hacked cells, what are producing the cancer drugs in the human body. That thing might be the most effective way to create next-generation drugs and treatments for cancer and another kind of disease, which are normally hard to handle. 

Those cells can be produced by using the own immune cells of the human, and there could also possible to make the genetically produced trigger, which makes those cells easy to destroy by using some virus, which is normally harmless. This is one of the most interesting ways to make feared "chimera" retrovirus the key to giving cure for many diseases. 

The thing is that because the cells, what are producing milk for goats can be hacked, there is possible to hack other cells to produce next-generation products, and the thing is that this kind of gene-hacking is basing technology, where the plasmids of the DNA can inject to the cells, and then the researchers can just wait, does that plasmid or the ring-form DNA bite connects itself to the DNA. 

That kind of research has made in the 1980s when some scientists made genetic transfers between animals. But modern researchers have a tool, which is called nanotechnology. The modern injection styluses are so thin, that they don't destroy the cell, and that allows also operate with smaller cells. But the other thing that is different from nanotechnology. Nanotechnology allows also create the artificial DNA bites and connects them in a certain part of the DNA. 

The DNA can be packed in the nano-submarine, which can inject them into the cells and operate inside the human body. If the system is enough accurate that thing can also inject the RNA-molecule in the cell organs as HIV-virus makes. The machine must just split the DNA into two parts, and then transfer the genome in the cell, as HIV-virus does in nature.  But another way to make genome transfer to the body of some animal just takes the own cell of the animal, and then inject the wanted DNA in that cell. Then that cell will be injected back to the body of the targeted animal, where it starts to produce viruses, which are carrying the DNA to other cells. 


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